Chemotherapy modulation by a cancer-associated microbiota metabolite.

IF 7.7

Cell systems Pub Date : 2025-09-17 Epub Date: 2025-09-10 DOI:10.1016/j.cels.2025.101397

Daniel Martinez-Martinez, Tanara V Peres, Kristin Gehling, Leonor Quintaneiro, Cecilia Cabrera, Maksym Cherevatenko, Stephen J Cutty, Lena Best, Georgios Marinos, Johannes Zimmerman, Ayesha Safoor, Despoina Chrysostomou, Joao B Mokochinski, Alex Montoya, Susanne Brodesser, Michalina Zatorska, Timothy Scott, Ivan Andrew, Holger Kramer, Masuma Begum, Bian Zhang, Bernard T Golding, Julian R Marchesi, Susumu Hirabayashi, Christoph Kaleta, Alexis R Barr, Christian Frezza, Helena M Cochemé, Filipe Cabreiro

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Abstract

Understanding how the microbiota produces regulatory metabolites is of significance for cancer and cancer therapy. Using a host-microbe-drug-nutrient 4-way screening approach, we evaluated the role of nutrition at the molecular level in the context of 5-fluorouracil toxicity. Notably, our screens identified the metabolite 2-methylisocitrate, which was found to be produced and enriched in human tumor-associated microbiota. 2-methylisocitrate exhibits anti-proliferative properties across genetically and tissue-diverse cancer cell lines, three-dimensional (3D) spheroids, and an in vivo Drosophila gut tumor model, where it reduced tumor dissemination and increased survival. Chemical landscape interaction screens identified drug-metabolite signatures and highlighted the synergy between 5-fluorouracil and 2-methylisocitrate. Multi-omic analyses revealed that 2-methylisocitrate acts via multiple cellular pathways linking metabolism and DNA damage to regulate chemotherapy. Finally, we converted 2-methylisocitrate into its trimethyl ester, thereby enhancing its potency. This work highlights the great impact of microbiome-derived metabolites on tumor proliferation and their potential as promising co-adjuvants for cancer treatment.

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癌症相关微生物代谢物对化疗的调节作用。

了解微生物群如何产生调节代谢物对癌症和癌症治疗具有重要意义。采用宿主-微生物-药物-营养4向筛选方法，我们在分子水平上评估了营养在5-氟尿嘧啶毒性背景下的作用。值得注意的是，我们的筛选鉴定了代谢物2-甲基异柠檬酸盐，发现它在人类肿瘤相关微生物群中产生和富集。2-甲基异柠檬酸盐在遗传和组织多样化的癌细胞系、三维（3D）球体和体内果蝇肠道肿瘤模型中显示出抗增殖特性，在那里它减少了肿瘤的传播并提高了生存率。化学景观相互作用筛选确定了药物代谢物特征，并强调了5-氟尿嘧啶和2-甲基异柠檬酸盐之间的协同作用。多组学分析显示，2-甲基异柠檬酸盐通过连接代谢和DNA损伤的多种细胞途径调节化疗。最后，我们将2-甲基异柠檬酸酯转化为其三甲酯，从而提高其效力。这项工作强调了微生物衍生的代谢物对肿瘤增殖的巨大影响及其作为癌症治疗的有前途的辅助剂的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cell systems

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